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本文引用的文献

1
CSB interacts with SNM1A and promotes DNA interstrand crosslink processing.CSB与SNM1A相互作用并促进DNA链间交联的处理。
Nucleic Acids Res. 2015 Jan;43(1):247-58. doi: 10.1093/nar/gku1279. Epub 2014 Dec 10.
2
Transcription-coupled nucleotide excision repair factors promote R-loop-induced genome instability.转录偶联核苷酸切除修复因子促进R环诱导的基因组不稳定。
Mol Cell. 2014 Dec 18;56(6):777-85. doi: 10.1016/j.molcel.2014.10.020. Epub 2014 Nov 26.
3
Human ISWI complexes are targeted by SMARCA5 ATPase and SLIDE domains to help resolve lesion-stalled transcription.人类ISWI复合物被SMARCA5 ATP酶和SLIDE结构域靶向,以帮助解决损伤停滞的转录问题。
Nucleic Acids Res. 2014 Jul;42(13):8473-85. doi: 10.1093/nar/gku565. Epub 2014 Jul 2.
4
SETD2-dependent histone H3K36 trimethylation is required for homologous recombination repair and genome stability.同源重组修复和基因组稳定性需要SETD2依赖的组蛋白H3K36三甲基化。
Cell Rep. 2014 Jun 26;7(6):2006-18. doi: 10.1016/j.celrep.2014.05.026. Epub 2014 Jun 12.
5
An RNA polymerase II-coupled function for histone H3K36 methylation in checkpoint activation and DSB repair.组蛋白H3K36甲基化在检查点激活和双链断裂修复中与RNA聚合酶II偶联的功能。
Nat Commun. 2014 Jun 9;5:3965. doi: 10.1038/ncomms4965.
6
A histone H3K36 chromatin switch coordinates DNA double-strand break repair pathway choice.组蛋白H3K36染色质开关协调DNA双链断裂修复途径的选择。
Nat Commun. 2014 Jun 9;5:4091. doi: 10.1038/ncomms5091.
7
SETD2 is required for DNA double-strand break repair and activation of the p53-mediated checkpoint.DNA双链断裂修复以及p53介导的检查点激活需要SETD2。
Elife. 2014 May 6;3:e02482. doi: 10.7554/eLife.02482.
8
Methylated TRF2 associates with the nuclear matrix and serves as a potential biomarker for cellular senescence.甲基化的TRF2与核基质相关联,并作为细胞衰老的潜在生物标志物。
Aging (Albany NY). 2014 Apr;6(4):248-63. doi: 10.18632/aging.100650.
9
The mechanism of gene targeting in human somatic cells.人类体细胞中基因靶向的机制。
PLoS Genet. 2014 Apr 3;10(4):e1004251. doi: 10.1371/journal.pgen.1004251. eCollection 2014 Apr.
10
Transcriptionally active chromatin recruits homologous recombination at DNA double-strand breaks.转录活跃的染色质将同源重组募集到 DNA 双链断裂处。
Nat Struct Mol Biol. 2014 Apr;21(4):366-74. doi: 10.1038/nsmb.2796. Epub 2014 Mar 23.

科凯恩综合征B组蛋白调节DNA双链断裂修复和检查点激活。

Cockayne syndrome group B protein regulates DNA double-strand break repair and checkpoint activation.

作者信息

Batenburg Nicole L, Thompson Elizabeth L, Hendrickson Eric A, Zhu Xu-Dong

机构信息

Department of Biology, McMaster University, Hamilton, ON, Canada.

Department of Biochemistry, Molecular Biology and Biophysics, University of Minnesota Medical School, Minneapolis, MN, USA.

出版信息

EMBO J. 2015 May 12;34(10):1399-416. doi: 10.15252/embj.201490041. Epub 2015 Mar 27.

DOI:10.15252/embj.201490041
PMID:25820262
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4491999/
Abstract

Mutations of CSB account for the majority of Cockayne syndrome (CS), a devastating hereditary disorder characterized by physical impairment, neurological degeneration and segmental premature aging. Here we report the generation of a human CSB-knockout cell line. We find that CSB facilitates HR and represses NHEJ. Loss of CSB or a CS-associated CSB mutation abrogating its ATPase activity impairs the recruitment of BRCA1, RPA and Rad51 proteins to damaged chromatin but promotes the formation of 53BP1-Rif1 damage foci in S and G2 cells. Depletion of 53BP1 rescues the formation of BRCA1 damage foci in CSB-knockout cells. In addition, knockout of CSB impairs the ATM- and Chk2-mediated DNA damage responses, promoting a premature entry into mitosis. Furthermore, we show that CSB accumulates at sites of DNA double-strand breaks (DSBs) in a transcription-dependent manner. The kinetics of DSB-induced chromatin association of CSB is distinct from that of its UV-induced chromatin association. These results reveal novel, important functions of CSB in regulating the DNA DSB repair pathway choice as well as G2/M checkpoint activation.

摘要

CSB基因突变是科凯恩综合征(CS)的主要病因,这是一种严重的遗传性疾病,其特征为身体损伤、神经退行性变和节段性早衰。在此,我们报告了一种人类CSB基因敲除细胞系的产生。我们发现CSB促进同源重组(HR)并抑制非同源末端连接(NHEJ)。CSB缺失或具有ATP酶活性缺失的与CS相关的CSB突变会损害BRCA1、RPA和Rad51蛋白向受损染色质的募集,但会促进S期和G2期细胞中53BP1-Rif1损伤灶的形成。敲低53BP1可挽救CSB基因敲除细胞中BRCA1损伤灶的形成。此外,敲除CSB会损害ATM和Chk2介导的DNA损伤反应,促进细胞过早进入有丝分裂。此外,我们表明CSB以转录依赖的方式在DNA双链断裂(DSB)位点积累。DSB诱导的CSB与染色质结合的动力学与其紫外线诱导的染色质结合动力学不同。这些结果揭示了CSB在调节DNA DSB修复途径选择以及G2/M期检查点激活方面的新的重要功能。